Publications:Newsletters/Oct2013

__NOTITLE__ CIRP October 2013 eNewsletter

Issue 33, October 2013

In this Newsletter:

Status of CIRP as a Result of the Government Shutdown and Furlough

We hope that most of our eNewsletter recipients are not furloughed, and hope that those who are will return to work soon. The CIRP team is fully funded through ongoing reimbursable studies that have continued from FY13 and is therefore available for CMS/GenCade support. However, our CIRP R&D is on hold until CRA funding comes through.

Congratulations to CIRP’s Dr. Alex Sanchez!

CIRP is very proud to congratulate Dr. Alejandro Sanchez for successfully completing defense of his PhD at the University of Mississippi, entitled “An Implicit Finite-Volume Depth-Integrated Model for Coastal Hydrodynamics and Multiple-Sized Sediment Transport.” Dr. Sanchez began his PhD study at U of Miss with encouragement from Dr. Nicholas C. Kraus in 2008 with Dr. Weiming Wu as his advisor. He completed his coursework in 1 year, conducted his research with partial CIRP funding, weekends and evenings, and defended this past July 2013. Dr. Sanchez’s Dissertation is available on the CIRP website for those interested in his research, http://cirp.usace.army.mil/pubs/theses.php. In the image, Dr. Sanchez is wearing a "PhD medal" awarded to him by his son, Emmanuel.

POC: Julie Rosati, Julie.D.Rosati@usace.army.mil

Alejandro Sanchez successfully defends PhD prospectus at University of Mississippi!

One of CIRP's Principal Investigators, Alex Sanchez, has been working on obtaining his PhD from the University of Mississippi under the guidance of Dr. Weiming Wu, a collaborator with the CIRP on the Coastal Modeling System. Some of Dr. Wu's and Alex's recent contributions to the CIRP can be found on the CIRP website under "Publications -> Journal Articles and Book Chapters." Defense of the prospectus at the University of Mississippi is conducted after the topic has been proven and thus represents a good advancement towards obtaining the PhD degree. Alex's topic is "An Implicit Finite-Volume Depth-Integrated Model for Coastal Hydrodynamics and Multiple-Sized Sediment Transport." Congratulations, Alex!

POC: Julie Rosati, Julie.D.Rosati@usace.army.mil

Research Needs for Nearshore Berms

Researchers from CHL's Regional Sediment Management, Coastal Inlets Research Program, and Dredging Operations and Environmental Research Programs met with the Jacksonville District (CESAJ) and Florida and Federal permitting agencies on February 13th, 2013, to discuss present and future research needs related to the placement of mixed sediments in the form of a nearshore berm. Part of the discussion covered the state of the science around nearshore berm design. Researchers and scientists from Florida's Department of Environmental Protection, Fish & Wildlife Conservation Commission, the U.S. Fish and Wildlife Service, NOAA's National Marine Fisheries Service, and other local stakeholders participated and expressed their research questions and ideas for future collaboration across multiple scientific fields. This is the first in a series of meetings that the Jacksonville District intends to have to facilitate a regional stakeholder partnership on a specific practice of the USACE.

POC: Tanya M. Beck, Tanya.m.beck@usace.army.mil
POC: Julie D. Rosati, Julie.d.rosati@usace.army.mil

CIRP conducts training at NAB via DOTS program

In response to a Dredging Operation Technical Support (DOTS) request, Mitch Brown and Ashley Frey provided training of a number of CHL models and tools developed through the Coastal Inlets Research Program (CIRP) to employees at the Baltimore District on 2-4 April. NAB staff in attendance were: Justin Callahan, Joe Reed, Tom Laczo, and Trevor Cyran. Mitch gave two days of hands-on training for the Coastal Modeling System (CMS). There was much interest in the use of nested grids on the Poplar Island Expansion project, a dredged material placement site in Chesapeake Bay. Additionally, use of the CMS and other tools for a project at Stinky Beach, Ocean City Inlet was discussed. On 3 April, Ashley taught RMAP, SBAS, and GenCade. RMAP (Regional Morphology Analysis Package) analyzes profiles and shorelines through a series of calculators while SBAS (Sediment Budget Analysis System) is a tool which calculates sediment budgets at inlets and the adjacent beaches. The purpose of the RMAP and SBAS training was to give the Baltimore District tools for developing a sediment budget near Ocean City Inlet. The District also asked for a short presentation and demonstration of the new shoreline change and sand transport model, GenCade.

POC: Mitch Brown, Mitchell.E.Brown@usace.army.mil
POC: Ashley Frey, Ashley.E.Frey@usace.army.mil

Entrance Design for Reducing Impact of Waves and Flow on Wetlands at Braddock Bay, NY

Braddock Bay is a shallow, open-inlet estuary located northwest of Rochester, NY, on the south shore of Lake Ontario. The natural barrier bars at the Bay entrance have gradually eroded away since the early 1900s. Continued erosion of the barrier bars has increased wave action in the Bay, leading to major loss of wetlands inside the Bay. CHL and EL researchers are teaming with the Buffalo District to conduct numerical wave, hydrodynamic, and sediment transport modeling to investigate structural systems for reducing waves, flow, and sediment transport patterns in the Bay. The study includes the existing condition and structural alternatives to evaluate potential shoaling at the Bay entrance, sedimentation within the Bay, and wetland erosion at the Bay.

POC: Zeki Demirbilek, Zeki.Demirbilek@usace.army.mil
POC: Lihwa Lin, Lihwa.Lin@usace.army.mil
POC: Earl Hayter, Earl.Hayter@usace.army.mil
POC: Patrick Deliman, Patrick.N.Deliman@usace.army.mil

A Structural Design Study for Reduction of Waves and Channel Sedimentation at Tangier Island, VA

CHL is performing a numerical modeling study to assist the Norfolk District to investigate waves and hydrodynamics in support of District’s structure design to reduce wave energy entering the western end of the Tangier Island, VA, channel and boat basin. Existing and different structural alternatives are being investigated, including design estimates for sizing the rock material. The modeling will also investigate channel sedimentation and channel infilling rates under strong wind and wave conditions. The results of the hydrodynamic modeling will feed directly into a preliminary wave control structure design. Structural stability, runup/overtopping, and transmission will be considered in the design calculations.

POC: Zeki Demirbilek, Zeki.Demirbilek@usace.army.mil
POC: Lihwa Lin, Lihwa.Lin@usace.army.mil
POC: Donald Ward, Donald.Ward@usace.army.mil
POC: David King, David.King@usace.army.mil

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